Post on 11-Dec-2016
transcript
Information sheetA4 size
(21 cm x 29.7 cm)
Information sheetA4 size
(21 cm x 29.7 cm)
Information SheetA4 size
(21 cm x 29.7 cm)
Information sheetA4 size
(21 cm x 29.7 cm)
Information SheetA4 size
(21 cm x 29.7 cm)
Project overview… Methodology…
Results…
Battery Charger with Emergency Light (SJK3-10)
Student Name:Lau Chun Kit
Supervisor Name:Professor Johnny Sin
Introduction
Nowadays, there are two main types of battery chargers: the conventional one and the USB. However, they are unattractive and dull and there are not many companies researching the possibility of a new version either. These products only have basic functions and purchasing them will be based on the price.
In order to make a breakthrough in this industry and get customers fascinated, I designed a new battery charger which includes an emergency light, called the Liger. It’s main function is the use of the emergency light. If the power supply suddenly cuts off, the emergency light will glow immediately so users will not be in the dark and will be able to see the circuit box and prevent any accident. It includes a shunt regulator which helps prevent overcharging so it is very safe to use. I believe it can provide customers with a better choice when deciding on chargers.
Objectives
• To make a breakthrough in this industry
• To inspire people to invent more creative products
•To raise the environmental issue awarenessProduct Description
The existing battery chargers in the market
Battery Charger with Emergency Light – The Liger
Product Function
Block diagram of the operation of the battery charger
Business Plan
Circuit Diagram - Hardware
Price: $129Selling Places: Supermarkets, Electrical appliance stores,
Department stores, Convenience shops
Target Customers: All kinds of people,especially housewives, frequent travelers
Marketing Strategy: • Press Advertisement• Shopping Mall Counter• Online Promotion
Name The LigerDimension 11cm X 6.5cm X 3.5cmBattery Type 2 AA BatteriesAC Input 100-240V ~50/60HzDC Input 9VDC Output 4V (maximum)Output Current 1050mACharging Time 2 hours (maximum) Battery Case
Charging Light
Emergency Light
Relay-SPST- control the emergency light
Transistor 2N6109- release heat
Circuit Diagram – Software
Circuit diagram of the battery charger
Experiment ResultsExperiment 1
Experiment 2
When the batteries are charging, the slope of voltage increases to reach the maximum and it then levels off. The zero slope in the graph means the charging process is completed and the fast charging mode switches to trickle mode.
As the transistor helps release heat and prevent overheating, the area around it becomes hot. Hence, the temperature of the transistor increases while the batteries are charging.